About This Course
PV Elite provides engineers, designers, estimators, fabricators and inspectors around the world with solutions that match their pressure vessel and heat exchanger design needs. Because the program is easy to learn and use, it is perfect for both regular and occasional users requiring fast start up and confidence in their safety code calculations. PV Elite is a complete solution for the quick and intuitive design of new pressure vessels, and it also evaluates and re-rates existing vessels, including Fitness for Service analysis. The program considers the whole vessel, addressing all of the wall thickness rules and stress analysis requirements for vertical towers, horizontal vessels and heat exchangers. Also, individual vessel components may be evaluated.
PV Elite performs calculations in accordance with ASME Section VIII, Divisions 1 & 2, PD 5500, and EN 13445. Rules from API 579 (Fitness for Service) are also included for evaluating the current state and remaining life of existing vessels. Outputs and Reports To simplify inspection requirements, PV Elite lists the most important equations such as required thickness and maximum allowable working pressure (MAWP) and also groups results by type (e.g. internal pressure, external pressure, bending stress, nozzles and flanges). Overall results are summarized where the element or detail controlling the overall vessel MAWP is identified.
Online Aveva E3D Training recently announced AVEVA PDMS, the world’s first 3D modeling software, is gradually being phased out and will be removed from the market by 2024. To stay ahead why not start your journey to migrate from AVEVA PDMS to AVEVA E3D Design today? Experience a more powerful and efficient way of working with AVEVA E3D Design.
Data Collection PV Elite makes defining pressure boundary conditions for vessels and exchangers easy, even for load sets that require significant data input. PV Elite streamlines data entry by breaking the input down into sensible subsets. Help on any input item is only a keystroke away. Graphics PV Elite's graphical representation of analysis models helps ensure confidence in the input and results. With PV Elite, analysis models can be viewed and manipulated with complete ease.
We offer full migration support to ensure minimal disruption to projects and the assurance that your data is secure, and that your engineering teams can collaborate with full transparency at every stage of a project. Save time by 30-50% on project start-up and expect lower IT costs with AVEVA E3D Design on AVEVA Connect.
Course Syllabus
Course |
Chapters |
Introduction |
1 Chapter |
Pressure Vessel Elite Tools |
2 Chapters |
Equipment Modelling |
2 Chapters |
Head Design |
2 Chapters |
Nozzle Design |
4 Chapters |
Joint Efficiency |
1 Chapters |
Vessel Support |
4 Chapters |
Vessel Stress Analysing |
4 Chapters |
Nozzle and Support Analysing |
7 Chapters |
Stress Analysing Report |
1 Chapters |
Course Details
Course Name |
PV Elite Software Training |
Class Mode |
Online Training |
Software |
PV Elite Software |
Course Duration |
30 Days |
Hours |
3 Hrs /Day |
Batch |
Morning, Afternoon, Evening and Weekend also available |
Course Fee |
35,000 |
Batch |
Individual students (1) |
Computer |
Individual System |
Course Material |
Caesar II Training Manual |
Eligible |
Diploma or Bachelor in Mechanical Engineering, Civil Engineering, Electrical Engineering, Chemical Engineering and Petroleum Engineering |
Certification |
Certification Course |
Placement |
100 % Job Assistance |
Lifetime Access |
Yes |
Course Curriculam:-
Introduction
CHAPTER-01
- Introduction
- PV Elite Overview
- PV Elite features
- What Can Be Designed?
- Complete Vertical Vessels
- Complete Horizontal Vessels
- Sphere vessel
- Heat exchanger
- Pressure Vessel Design Standard (ASME, European & British)
- Pressure Vessel definition
- Pressure VESSEL Scope
- Design Codes and their Scope
- ASME Sec VIII Div.1, Div.2, and Div.3, PD-5500, GB-150, etc.
- Scope and Structure of ASME Sec VIII Div.1
- Other Codes/Standards to be referred and their Scope
- ASME B16.5
- ASME B16.47
- ASME Sec II-A, Sec II-B, and Sec II-D
- Types of Pressure
- Stress and Various Stress Theories
PV Elite Tools
CHAPTER-01
- Open
- Recent
- Save & Save-AS
- Import/Export
- Print-setup
- Preview/Print
- Help
- System folder
- Exit
- Insert element
- Propagate Element Diameter
- Flip Element Orientation
- Zoom Mode
- Compute Ligament Efficiencies
- Delete Element
- Share Information
- Select Material
- View Element
- Pipe properties
- Write foundation 3D file
- Ringing results
- Element properties
- Create & review units
- Switch datum input
- List dialog
- Export to DXF file
- Create data base
- Set configuration parameters
- Calculator
- Front view
- Back view
- Top view
- Bottom viewd. Bottom view
- Left end view
- Right end view
- South west Isometric view
- South east Isometric view
- North east Isometric view
- North west Isometric view
- Zoom to Extents
- Zoom to Window
- Orbit
- Turn table orbit
- Pan & Zoom
- Select by window
- Select by single click
- Translate detail
- Insert cutting plane
- Make transparent
- Display nozzle list
- Re-draw the model
CHAPTER-02
- Set Configuration Parameters
- Select Units
- Create\ Review Units
- Units Conversion
- Edit/Add Materials
- Renumbers The Nodes
- Flip Model Orientation
- Visibility
- View Types
- 3d Options
- Show Materials Show Wall Thickness
- Show Temperature Show Pressure
Equipment Modelling
CHAPTER-01
- Cylindrical Vessels
- Spheres
- Pressure Vessels With Sump
- Distillation Columns
- Kettle Re-Boiler
- Ferment
CHAPTER-02
- Conventional Jackets
- Half-Pipe or Limpet Coils
- Dimple Jackets
- Plate Coils
CHAPTER-03
- Heat Exchangers
- Modelling Platform, Packing, and Trays in PV-Elite
- Adding Weights and Forces/Moments in PV-Elite
- Concept of Lining in Pressure Vessels
- Body Flange
- Liquid Information
- Lifting Lug
- Packing Data
- Insulation Data
- Clip
- Component Analysis
Shell & Head Design
CHAPTER-01
- Shell internal pressure Thickness Calculation
- Spheres internal pressure Thickness Calculation
CHAPTER-02
- Shell external pressure Thickness Calculation
- Spheres external pressure Thickness Calculation
- Maximum Allowable Working Pressure (MAWP)
- Maximum Allowable Working Pressure New and Cold (MAPNC)
- Actual stress calculation at given pressure and thickness
CHAPTER-03
- Types Of Heads
- Head thickness and pressure calculation
CHAPTER-04
- Weld joint efficiency
- Insulation types and thickness calculation
- hydro pressure
Nozzle Design
CHAPTER-01
- Types Of Nozzles
- Nozzles Orientation and Position,
- Nozzles Input Options
- Hillside Nozzle
- Top Head Adding Radial and Hilli Nozzles
CHAPTER-02
- Nozzle/Reinforcement Design using ASME Section VIII DIV 1
- Method per UG-37
- Method per Appendix 1-10
- Large Nozzles in Cylindrical Shells
- Nozzle Neck Thickness (UG-45)
CHAPTER-03
- Nozzle Flanges and Types
- Selection of Nozzle Flange Rating
- Drain Pipe Nozzle
- Local Loads on Nozzle/Shell Junction and Local Load Analysis as per WRC load calculation
Inspection & Testing in Pressure Vessel
CHAPTER-01
- Destructive Testing
- Impact Testing and ASME Requirements
- Non-Destructive Testing (MDMT)
CHAPTER-02
- Hydrostatic Test and ASME Requirements
- Pneumatic Testing and ASME Requirements
- Radiography and ASME Requirements including Joint Efficiencies
- Liquid Penetrant Testing
- Ultrasonic Testing
Support Design & Analysing
CHAPTER-01
- Skirt Support Base ring types
- Basic Skirt Thickness calculation
- Base ring Thickness Calculations
CHAPTER-02
- A lateral force from wind or earthquake
- The weight of the vessel.
- Concrete pressing stress calculation on the base ring.
Foundation bolts tensile stress Calculation
CHAPTER-03
- Wind Diameter Multiplayer
- Wind Loads Calculation
- Seismic Loads Calculation
CHAPTER-04
- Saddle Support Stress Types and Calculation
- Shear Stress
- Circumferential Stress
CHAPTER-05
- Legs and Lugs support Design
Shell & Tube Heat Exchanger Design
CHAPTER-01
- Scope of Tubular Exchanger Manufacturer’s Association (TEMA)
- Various configuration of Shell & Tube Exchangers as per TEMA
- Various classes in TEMA (R, C &B)
- Components of Shell & Tube Heat Exchangers and Purposes
- Shell
- Channel Shell/Bonnet
- Tube Sheets
- Girth Flanges
- Tubes (Including Finned Tubes)
- Nozzles and Reinforcement
- Nozzle Flanges
- Supports (Leg, Lugs or Bracket, Saddles and Skirt)
- Baffles, Tie Rods and Spacers
- Earthing Lugs
- Name Plate and Brackets
- Pipe and Platform Support Clips
- Insulation and Fire Proofing Supports
Lifting Lugs, Lifting Trunnions and Tailing Lugs
- Anchor/Mounting Bolts
- Baffles, Tie Rods and Spacers
CHAPTER-02
- Introduction to Section UHX in ASME Sec VIII Div.1 and various configurations as per ASME
- Design of Tube Sheet using PV-Elite
- Practice Exercises in PV-Elite for common configuration of Shell & Tube Heat Exchangers
CHAPTER-03
- Calculate The Minimum Required Wall Thickness For Tubing
- U-BEND REQUIREMENTS
- BAFFLES Plate Thickness Calculation
- Heat transfer area
- Heat Exchanger Load case
ASME DIV-2 & EN-13445 Design Rule
CHAPTER-01
- Difference between ASME Div-1 & ASME DIV-2
CHAPTER-02
- ASME DIV-2 design Rules and Calculation
CHAPTER-03
- EN-13445 design Rules and Calculation
Stress Analysing Report
CHAPTER-01
- Customize report header
- Customize company name
- Customize the title page
- Setting default fonts
- Save reports to Microsoft Word
- Error Checking
- Input Echo
- XY Coordinate Calculations
CHAPTER-02
- Internal Pressure Calculations
- Cone Evaluation
- Support Calculation
- Tube Sheet Analysis
- Hydro Test Calculations
- External Pressure Calculations
- Weight of Elements
- Weight of Details
- ANSI Flange MAWP
- Total Weight and Detail Moment
- Wind Load Calculation
- Earthquake Load Calculation
- Longitudinal Stress Constants
- Longitudinal Allowable Stresses
- Nozzle Analysis
- Export to DXF File